The influence of multiscale fillers on the rheological and mechanical properties of carbon-nanotube–silica-reinforced epoxy composite

The influence of multiscale fillers on the rheological and mechanical properties of carbon-nanotube–silica-reinforced epoxy composite

Multiscale fillers were fabricated through synthesis of carbon nanotubes (CNTs) on silica microparticles by the use of chemical vapor deposition. Three types of catalyst precursors with different concentrations and reaction times were investigated to find the optimal conditions for CNT synthesis. Th...

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Bibliographic Details
Published in:Materials & design Vol. 88; pp. 227 - 235
Main Authors: Rahmanian, S., Suraya, A.R., Roshanravan, B., Othman, R.N., Nasser, A.H., Zahari, R., Zainudin, E.S.
Format: Journal Article
Language:English
Published: Elsevier Ltd 25-12-2015
Subjects:
Carbon nanotube
Chemical vapor deposition
Elastic modulus
Epoxy composite
Fillers
Mechanical properties
Micro-mechanics
Optimization
Polymer matrix composites
Reaction time
Rheological properties
Synthesis (chemistry)
Carbon nanotube
Mechanical properties
Micro-mechanics
Epoxy composite
Rheological properties
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Summary:Multiscale fillers were fabricated through synthesis of carbon nanotubes (CNTs) on silica microparticles by the use of chemical vapor deposition. Three types of catalyst precursors with different concentrations and reaction times were investigated to find the optimal conditions for CNT synthesis. The produced multiscale fillers of CNT–silica were incorporated within epoxy resin to fabricate a multiscale composite. Rheological analysis and tensile and impact tests were performed to study the effect of fillers on the structural properties of composites. The rheological results demonstrated a similar viscous behavior between CNT–silica suspensions and epoxy, which implies that there was no critical increase of viscosity. Significant improvements in the elastic modulus and tensile and impact strength were achieved for epoxy matrix filled with the optimal fraction of multiscale fillers. The reinforcing efficiency of multiscale fillers was evaluated by comparing the results of micromechanical models with experimental data. [Display omitted] •Carbon nanotubes (CNT) grown on silica microparticles were incorporated in epoxy resin to fabricate a multiscale composite with significantly improved mechanical properties.•No critical increase of viscosity was observed with the incorporation of CNT-silica within epoxy.
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ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2015.08.149